JPH10180571A - Gripping/detaching device of bolt - Google Patents

Abstract

PROBLEM TO BE SOLVED: To dispense with an upper wedge and a lower wedge so as to simplify both the woking operation and the construction by constituting the diameter spreading means of a split praber socket by arranging elastic bodies separating adjoining socket elements from each other respectively between the adjoining socket elements. SOLUTION: A locking ring 20 is descendingly driven through tie-rods 22, the projecting parts 20b of the locking ring are conformed to the projecting parts 10g of respective socket elements 10, and hence the split praber socket 9 is contracted in diameter. In this case, springs 11 are compressed while being guided with guide rods, and received in the recessed parts at which the socket elements are opposite to each other. Hereby, the first engaging part 10b of each socket element 10 engagedly grips the gripping part 3a of a praber 3, and the second engaging part 10c engagedly grips the parallel groove 42a of a bolt 42.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for holding and releasing a bolt.

[0002]

2. Description of the Related Art An apparatus for gripping and releasing a bolt, for example, in a bolt and nut for fixing a lid member to a container, is an apparatus for gripping and pulling up the bolt to facilitate tightening and releasing of the nut. As a conventional gripping / separating device of this type, a device described in Japanese Patent Publication No. 60-57996 is known. This is achieved by arranging a plurality of socket elements 10 shown in FIG. 6 so as to form a cylindrical shape in the circumferential direction, and forming a first engagement portion and a second engagement portion on the inner peripheral surface of each socket element 10 in order from the top. Is formed, and the first engagement portion has a split puller socket 9 which is arranged to be detachable from the gripper portion of the puller. Further, there are provided a diameter reducing means 15 for reducing the diameter of the split-purer socket 9, and a diameter increasing means 16 for expanding the diameter of the split-purer socket 9 in a state where the diameter reducing means 15 is released.

Then, the diameter of each socket element 10 is moved by the diameter expanding means 16 to release the engagement between the second engaging portion on the inner peripheral surface of each socket element 10 and the parallel groove of the bolt,
The split puller socket 9 can be attached to or detached from the bolt. Further, in a state where the split puller socket 9 is mounted on the bolt, the diameter of each socket element 10 is reduced by the diameter reducing means 15 so that the second engaging portion on the inner peripheral surface of each socket element 10 is parallel to the bolt. The bolt can be gripped by engaging the groove.

[0004] The diameter reduction of the split puller socket 9 is performed by the locking ring 20, and the diameter expansion movement of the split puller socket 9 is moved to the upper wedge 61 and the lower wedge 62 while moving the locking ring 20. Performed. When the locking ring 20 is depressed, the projection on the inside of the locking ring 20 and the projection on the outside of the split-praver socket 9 are engaged, and the split-praver socket 9 moves in the inner diameter direction while guiding the collar, Hold the bolt.

When the locking ring 20 is pulled up, the concave portion inside the locking ring 20 and the convex portion outside the split puller socket 9 come into engagement. However, since the split puller socket 9 itself does not have a force to move the diameter, it cannot be detached from the bolt. Therefore,
An upper wedge and a lower wedge are provided at the upper and lower ends of each of the split puller sockets 9, and each split puller socket 9 is moved in the outer diameter direction through an inclined surface formed on the locking ring 20 to grip the bolt. Has been separated.

The upper wedge 61 is fixed to the upper end of each socket element 10 by a bolt 63 as shown in FIG. By raising the locking ring 20, the wedge surface 61a of the upper wedge 61 is engaged with the inclined surface 64 of the locking ring 20, and each socket element 10 is moved in diameter. On the other hand, the lower wedge 62
Are fixed to the lower end of each socket element 10. By raising the locking ring 20, the wedge surface 62a of the lower wedge 62 is
, The respective socket elements 10 move in diameter.

[0007]

However, such a conventional bolt gripping / releasing device requires an upper wedge 61 and a lower wedge 62 for each of the socket elements 10, and each socket element 10 has Mounting part of both wedges 61 and 62 and locking ring 20
, The inclined surfaces 64 and 65 must be machined. In particular, since the inclined surface 65 for the lower wedge 62 of the locking ring 20 is hollowed out, it is difficult to process and has a technical problem that the structure is complicated.

[0008]

SUMMARY OF THE INVENTION The present invention has been made in view of such a conventional technical problem.
It is as follows. According to the first aspect of the present invention, a housing 2 having an internal space 2a, a puller 3 which is housed in an upper side of the internal space 2a of the housing 2 so as to be able to move up and down, and has a grip portion 3a formed at a lower end thereof, The first and second engaging portions 10b and 10c are formed on the inner peripheral surface of each of the socket elements 10 in order from the upper side. Is formed, and the first engagement portion 10b is arranged so as to be detachable from the grip portion 3a of the puller 3.
A locking ring 20 externally fitted to the split-praver socket 9 so as to be able to move up and down, a rocking-ring elevating device 30 for elevating and lowering the locking ring 20, and operating in accordance with the elevating movement of the locking ring 20. And a diameter increasing means 16 for increasing the diameter of the split-purer socket 9. The diameter of the split-purer socket 9 is reduced by the diameter-reducing means 15, and the split-purer socket 9 is reduced. First
When the gripper 3a of the puller 3 is engaged with the engaging portion 10b and the parallel groove 42a of the bolt 42 is engaged with the second engaging portion 10c, the puller 3 is raised by the puller lifting device 4. With the pulling force acting on the bolt 42 and the diameter reducing means 15 being released, the diameter of the split puller socket 9 is expanded by the diameter expanding means 16 to engage the second engagement portion 10c of the split puller socket 9. A bolt gripping / releasing device which allows the bolt 42 to be inserted and withdrawn by separating the bolt 42 from the parallel groove 42a. Between each adjacent socket element 10
And an elastic body (11) that separates the bolts from each other. Claim 2
The invention of the present invention is characterized in that the elastic body (11) is
The bolt gripping / separating device according to claim 1, wherein the bolts are received in recesses (10d) formed on the respective opposed surfaces of the bolt. According to a third aspect of the present invention, the elastic body (11) is
The opposing concave portion 1 is fixed to one of the opposing concave portions 10d.
The bolt gripping / separating device according to claim 2, characterized in that the device is externally mounted on a guide rod (12) loosely inserted into the other end of the bolt (0d).

[0009]

Embodiments of the present invention will be described below with reference to the drawings. 1 to 5 show an embodiment of a bolt gripping / separating device according to the present invention. In the figure, reference numeral 1 denotes a bolt gripping / separating device. As shown in FIG.
And nuts 42 and 4 for fixing the lid member 41 on the upper part of the
3 is used to lift the bolt 42. The bolt 42 is a stud bolt, and a large number of bolts 42 are erected on the flange portion 40a of the pressure vessel 40 at predetermined circumferential intervals.
The nut 43 is screwed into each of the through holes formed in the flange portion 41 a of the lid member 41. This bolt 42
A screw portion 42b is formed at the lower end of the shaft portion projecting upward from the flange portion 41a, and an annular parallel groove 42a is formed in multiple stages at a small diameter portion at the upper end.

The apparatus 1 for holding and releasing a bolt is shown in FIGS.
As shown in the figure, the main components are a housing 2, a puller 3, a puller elevating device 4, a nut rotating device 5, a split puller socket 9, a locking ring 20, and a locking ring elevating device 30. The housing 2 has a cylindrical shape having an internal space 2 a formed to penetrate in the vertical direction, and the lower end surface 2 b is formed by a flange portion 41 a of the lid member 41.
Used in contact with the upper surface of the. This housing 2
Above the internal space 2a, the puller 3 is housed so as to be movable up and down.

The puller 3 has a shaft shape, and sequentially forms a grip portion 3a, a collar locking portion 3b, a shaft portion 3c, and a spherical seat portion 3d from the lower end. The grip portion 3a is formed by forming annular grooves in multiple stages, and each annular groove is defined by an annular lower surface that forms a horizontal plane and an inclined surface that gradually increases in diameter upward. The collar engaging portion 3b is formed by an annular groove, and an annular collar 3f is attached to the collar engaging portion 3b. The spherical seat 3d is formed by a downward concave spherical surface. The spherical seat 3d is actually formed on the lower surface of a holding nut 3g screwed to the upper end of the puller 3. A guide bar 3 e is inserted in the center axis direction of the puller 3 and is used for centering with the bolt 42.

The puller lifting device 4 is formed by a double-acting cylinder device as shown in FIG.
A cylinder body 6a fixed to the upper end of the cylinder body 6 by a bolt 6c, a cylinder body 6b fixed to the cylinder body 6a by a bolt 6d, and an outer surface of the shaft 3c of the puller 3, and an inner peripheral surface of the cylinder body 6a It has a stepped piston 4a slidably fitted thereto and a cylindrical return piston 4b fixed to the piston 4a and slidably fitted to the inner peripheral surface of the cylinder body 6b.

The hydraulic chamber 6 is located below the piston 4a.
e, and the return piston 4 is located above the piston 4a.
An air pressure chamber 6f is defined outside b. The air pressure chamber 6f is constantly supplied with a predetermined pressure of air from a port 6g to urge the piston 4a and the return piston 4b to descend, thereby allowing the puller 3 to descend by its own weight.
On the other hand, by supplying the hydraulic fluid from the port 6h to the hydraulic chamber 6e, the piston 4 is pressed against the pressure air in the pneumatic chamber 6f.
a and the return piston 4b can be raised. Since the spherical washer 4c is attached to the upper surface of the piston 4a, the puller 3 is driven upward while the spherical washer 4c contacts the spherical seat 3d.

The nut rotating device 5 is provided at a lower end of the housing 2. That is, the nut rotating device 5 includes an annular gear member 5 a rotatably supported in the internal space 2 a of the housing 2, a case 5 f fixed to the housing 2,
A first gear 5b rotatably supported by the case 5f and meshing with the teeth on the outer peripheral surface of the gear member 5a; and a second gear 5c rotatably supported by the case 5f and meshing with the teeth of the first gear 5b. And a drive gear 5d rotatably supported by the case 5f and meshing with the teeth of the second gear 5c. An engagement portion 5e is formed below the gear member 5a.
e is engaged with the engaged portion 43a of the nut 43 received at the lower end of the internal space 2a of the housing 2. Thus, the driving gear 5d is driven by the air motor 5g.
Are rotated in the forward and reverse directions, so that the second gear 5c and the first gear 5c are rotated.
Since the gear 5b and the gear member 5a are driven to rotate, the nut 43 received in the internal space 2a of the housing 2 can be screwed into or out of the bolt 42 by the gear member 5a.

The split-praver socket 9 comprises a plurality of (three in this embodiment) socket elements 1 each having a cylindrical member circumferentially.
It has a shape divided into zero, and is formed by arranging a plurality of socket elements 10 in a cylindrical shape at predetermined intervals in the circumferential direction. On the inner peripheral surface of each socket element 10, an arc-shaped groove portion 10a, a first engagement portion 10b, and a second
An engagement portion 10c is formed. In each groove 10a,
The outer periphery of the annular collar 3f is slidably engaged, and each socket element 10 can be guided by the collar 3f to move in the radial direction. The second engagement portion 10c is located below the puller 3.

First engagement portion 10b of each socket element 10
Has multiple stages of annular projections that match the annular grooves formed by the gripping portions 3a of the puller 3. Therefore, the first engagement portion 10b
Is defined by an annular lower surface that forms a horizontal plane and an inclined surface that gradually decreases in diameter upward. 2nd engagement part 1
0c has an annular convex portion which is compatible with the parallel groove 42a of the bolt 42 in multiple stages. The parallel groove 42a of the bolt 42 is formed by a groove defined by an annular upper surface that forms a horizontal plane and an inclined surface whose diameter gradually increases downward. Therefore, the second
The annular convex portion of the engagement portion 10c is defined by an annular upper surface that forms a horizontal plane and an inclined surface whose diameter gradually decreases downward.
On each outer peripheral surface of each socket element 10, annular concave portions 10f and convex portions 10g are alternately formed via inclined surfaces 10h.

Also, the socket elements 10 adjacent in the circumferential direction
A spring 11 which is an elastic body is compressed and interposed therebetween, and the split-praver socket 9 is constantly urged by the spring 11 so as to expand its diameter. That is, as shown in FIGS. 3 and 4, the recess 10 d is formed on the opposing surface of the adjacent socket element 10 so as to face each other.
The two ends of the spring 11 are accommodated therein. Reference numeral 12 denotes a guide rod, one end 12a of which is press-fitted and fixed to the bottom of one recess 10d, and the other end 12b of which is the other recess 1d.
0d is inserted so as to be able to move forward and backward. The spring 11 is sheathed on the guide rod 12, and one end of the spring 11 is
And the other end is recessed 10d.
Seated on the annular step surface 10e of the adjacent socket element 10
It functions to move away. The concave portion 10d having such a spring 11 and a guide rod 12 is positioned on the same horizontal plane, and has a center axis direction of three as shown in FIG.
It is located at the place. The spring 11 constitutes a diameter-expanding means 16 for expanding the diameter of the split-praver socket 9 in a state where a diameter-reducing means 15 described later is released.

The locking ring 20 has a cylindrical shape,
On the inner peripheral surface, an annular concave portion 20a and a convex portion 20b are formed on the inclined surface 2.
0c are formed alternately. This recess 20a,
The convex portion 20b and the inclined surface 20c are substantially compatible with each concave portion 10f, each convex portion 10g, and each inclined surface 10h of the socket element 10. The upper end of the locking ring 20 is connected to the locking ring elevating device 30 by a plurality of (six in this example) tie rods 22 arranged at predetermined intervals in the circumferential direction.

The locking ring lifting device 30 is provided in the upper end of the housing 2. That is, the locking ring elevating device 30 is constituted by a double-acting cylinder device, and has a cylindrical cylinder body 31 fixed to the upper end of the tie rod 22 and liquid tight seals on both upper and lower ends of the cylinder body 31. Upper sliding member 31a and lower sliding member 31b provided
And fixed to the shaft portion 3c of the puller 3, the cylinder body 31
And a piston 32 that is slidably fitted to the inner peripheral surface of the intermediate portion. Thus, the first pressure chamber 33 and the second pressure chamber 34 are defined on both upper and lower sides of the piston 32.

Pressurized air is supplied to the first pressure chamber 33,
By draining the second pressure chamber 34, the upper sliding member 31a, the cylinder body 31, and the lower sliding member 31b rise as shown in the left half of FIG. 1, and the locking ring 20 rises via the tie rod 22. Driven. At this time, the concave portion 20a, the convex portion 20b, and the inclined surface 20c of the locking ring 20 correspond to the concave portion 10f, the convex portion 10 of each socket element 10.
g and the inclined surface 10h. Then, the diameter of the split puller socket 9 urged by the spring 11 increases, and the outer peripheral surface of each socket element 10 comes into close contact with the inner peripheral surface of the locking ring 20 almost entirely.

Further, by supplying pressurized air to the second pressure chamber 34 and draining the first pressure chamber 33, as shown in the right half of FIG.
Then, the lower sliding member 31b descends, and the locking ring 20 is driven downward via the tie rod 22. At this time,
The inclined surface 20c of the locking ring 20 moves while pressing the inclined surface 10h of each socket element 10, and the convex portion 20b
Correspond to each convex portion 10g of the socket element 10 and the concave portion 20a of the locking ring 20 corresponds to each concave portion 10f of the socket element 10, so that the split puller socket 9
Is reduced in diameter. The concave portion 20a of the locking ring 20,
Convex portion 20b and inclined surface 20c and each socket element 10
The concave portion 10f, the convex portion 10g, and the inclined surface 10h constitute the diameter reducing means 15 of the split puller socket 9.

Next, the operation will be described. Bolt 42
The case where the nut 43 screwed into the nut is loosened will be described. Initially, in the bolt gripping / separating device 1, the locking ring elevating device 30 drives the locking ring 20 upward through the tie rod 22, and the split-praver socket 9 is in a state of being expanded in diameter. In this state, the bolt gripping / removing device 1 is moved by a lifting device such as a hoist (not shown), and is gradually lowered from above a predetermined bolt 42 so that the nut 43 is positioned at the lower end of the internal space 2 a of the housing 2. Then, the lower end surface 2b of the housing 2 is brought into contact with the upper surface of the flange portion 41a of the lid member 41. At this time, the engaging portion 5e of the gear member 5a engages with the engaged portion 43a of the nut 43. Also, the parallel groove 42a of the bolt 42
Is received in the lower end portion of the split-praver socket 9 having the enlarged diameter, and the lower end surface of the
Is almost in contact with the upper end surface of the.

Next, the locking ring 20 is driven downward by the locking ring lifting / lowering device 30 via the tie rods 22 so that the projections 20b of the locking ring 20 match the projections 10g of the socket elements 10, and the split puller socket 9 is reduced in diameter. At that time, the movement of each socket element 10 is guided by the collar 3f. Also,
The spring 11 is compressed while being guided by the guide rod 12, and is received in the opposite recess 10d of the socket element 10 as shown in the upper half of FIG. 3 and in FIG. Thereby, the first engagement portion 10b of each socket element 10 engages and holds the grip portion 3a of the puller 3, and the second engagement portion 1
0c engages and holds the parallel groove 42a of the bolt 42. Thus, the bolt 42 is gripped by the bolt gripping / separating device 1.

Subsequently, the hydraulic chamber 6e of the puller elevating device 4
Is supplied, and the prober 3 is driven upward while the spherical washer 4c of the piston 4a is in contact with the spherical seat 3d. Since the first engagement portion 10b of each socket element 10 grips the grip portion 3a of the puller 3 and the second engagement portion 10c grips the parallel groove 42a of the bolt 42 by raising the puller 3, An attractive force acts on the bolt 42, and the reaction force acts on the upper surface of the flange portion 41 a of the lid member 41 from the lower end surface 2 b of the housing 2. As a result, the bolt 42 is slightly lifted, and the packing (not shown) interposed between the lid member 41 and the pressure vessel 40 is compressed, so that the nut 43 slightly lifts from the upper surface of the flange portion 41a.

From this state, the nut rotating device 5 is operated, and the nut 43 is rotated in one direction and screwed out. Without using the nut rotating device 5, the nut 43 can be manually rotated and screwed out.

When the nut 43 previously loosely screwed onto the bolt 42 is tightened, the nut 43 is rotated in the other direction while the attractive force is applied to the bolt 42 by the above-described procedure. It should be done.

When the nut 43 is rotated in this way, the device 1 for holding and releasing the bolt is removed. That is,
The hydraulic fluid in the hydraulic chamber 6e of the puller elevating device 4 is drained, and the piston 4a,
The return piston 4b and the spherical washer 4c are lowered, and the prober 3 is lowered by its own weight. Next, the locking ring 20 is lifted and driven by the locking ring elevating device 30 via the tie rods 22, and the convex portions 20 b and the inclined surfaces 20 c of the locking ring 20 are changed into the concave portions 10 f, the convex portions 10 g, and the inclined surfaces of each socket element 10. Match with 10h. As a result, the interval between the adjacent socket elements 10 gradually increases due to the elastic force of the spring 11, and as shown in the lower half of FIG. 3, the diameter of the split puller socket 9 increases, and the grip of the bolt 42 is released. You. At that time, the movement of each socket element 10 is guided by the collar 3f. The spring 11 extends while being guided by the guide rod 12. Thus, the engagement of the first engaging portion 10b of each socket element 10 with the grip portion 3a of the puller 3 is released,
Further, since the engagement of the bolt 42 with the parallel groove 42a of the second engagement portion 10c is released, the device 1 for holding and releasing the bolt can be removed.

The recess 10d for receiving the spring 11 of the socket element 10 prevents excessive compression deformation of the spring 11, and the guide rod 12 functions to suppress the bending deformation of the spring 11 and improve durability. In addition, since the concave portion 10d having the spring 11 and the guide rod 12 is located on the same horizontal plane and is arranged at three places in the direction of the central axis as shown in FIG. Obtained stably and reliably.

By the way, in the first embodiment,
Although the case where the device 1 for holding and releasing bolts is applied to a bolt tightening machine has been described, the present invention can be applied to not only a bolt tightening machine but also a bolt attaching / removing machine and a bolt conveying device.

[0030]

As will be understood from the above description,
ADVANTAGE OF THE INVENTION According to the holding | gripping / removing apparatus of the bolt which concerns on this invention, the following effects can be produced. That is, since the upper wedge and the lower wedge are not required, not only the processing operation but also the structure is simplified, and the reliability of operation and the maintainability are improved. In addition, since the spring provided in place of the upper wedge and the lower wedge does not protrude to the outside of the locking ring, the inner diameter of the housing can be made smaller, and the size and weight of the device for holding and releasing the bolt can be reduced. Can be planned. As a result, the installation location of the bolt gripping / separating device is less likely to be restricted, and the interval between bolts to be gripped or bolts to be released can be reduced.

[Brief description of the drawings]

FIG. 1 is a perspective view of a bolt according to an embodiment of the present invention;
Sectional drawing which shows the lower part of a detachment device.

FIG. 2 is a cross-sectional view showing the same upper part.

FIG. 3 is a cross-sectional view showing a main part of a split puller socket and a locking ring.

FIG. 4 is an enlarged sectional view showing a main part of the split puller socket in a reduced diameter state.

FIG. 5 is a view showing a state where bolts and nuts are similarly attached.

FIG. 6 is a sectional view showing a diameter expanding means of a conventional split puller socket.

[Explanation of symbols]

1: Device for holding and releasing bolts, 2: Housing, 2a:
Internal space, 3: Plover, 3a: gripper, 4: Plover elevating device, 9: Split praver socket, 10: Socket element, 10a: Groove, 10b: First engagement part, 10
c: second engaging portion, 10d: concave portion, 11: spring (elastic body), 12: guide rod, 15: diameter reducing means, 16: diameter expanding means, 20: locking ring, 30: locking ring elevating device, 42 : Bolt, 42a: parallel groove, 42
b: screw part, 43: nut, 43a: engaged part.

Claims (3)

[Claims] 1. A housing (2) having an internal space (2a), and a housing (3a) formed at a lower end of the housing (2) so as to be movable up and down at an upper side of the internal space (2a). A puller (3), a puller elevating device (4) for raising and lowering the puller (3), and a plurality of socket elements (10) are arranged in a circumferential direction, and formed on an inner peripheral surface of each socket element (10). , The first engagement portion (10
(b) and a second engagement part (10c) are formed, and the first engagement part (10b) is detachably engaged with the grip part (3a) of the puller (3). ,
A locking ring (20) externally fitted to the split-praver socket (9) so as to be movable up and down, and a locking ring elevating device (3) for elevating and lowering the locking ring (20)
0), a diameter reducing means (15) which operates in accordance with the elevating movement of the locking ring (20), and a diameter increasing means (15) for reducing the diameter of the split-praver socket (9) and an expanding means for increasing the diameter of the split-praver socket (9). (16) and a split puller socket (9) by means of a diameter reducing means (15).
And the gripper (3a) of the puller (3) is inserted into the first engagement portion (10b) of the split puller socket (9).
And a bolt (4) is attached to the second engagement portion (10c).
With the parallel groove (42a) of (2) engaged, the puller (3) is raised by the puller elevating device (4) to apply a tensile force to the bolt (42) to reduce the diameter of the bolt (42). Is released, the diameter of the split puller socket (9) is expanded by the diameter expanding means (16), and the second engagement portion (10c) of the split puller socket (9) and the bolt (42) are removed. A bolt gripping / separating device for detaching a parallel groove (42a) and inserting and removing a bolt (42), wherein a diameter increasing means (16) of the split-praver socket (9) is adjacent to the split-praver socket (9). An elastic body (11) for separating adjacent socket elements (10) from each other between socket elements (10) to be separated from each other. 2. Recesses (10d) in which elastic bodies (11) are respectively formed on opposing surfaces of adjacent socket elements (10).
The bolt gripping / separating device according to claim 1, wherein the bolt gripping / separating device is received. 3. An elastic body (11) is provided with opposed concave portions (10).
3. The bolt gripping / separating device according to claim 2, wherein the guide rod is fixedly mounted on one of the d) and is externally inserted into the other of the opposing concave portion.